# ADR-0181: CORE-native Audio Compiler over the Delta-CRDT Substrate **Status:** Accepted (ratified 2026-06-03) — implementation landed **Date:** 2026-05-29 **Implementation:** `sensorium/audio/` + `evals/audio_sensorium/`. Proof obligations are covered by `tests/test_audio_compiler.py`, `tests/test_audio_crdt_merge.py`, `tests/test_audio_eval_gates.py`, `tests/test_audio_pack_manifest.py`, and `tests/test_audio_sensorium_mount.py`. **Authors:** Joshua M. Shay, Core R&D Engine **Domains:** `sensorium/audio/`, `sensorium/adapters/audio.py`, `packs/audio/`, `core-rs/src/vault.rs` (read-only contract), `evals/audio_sensorium/` **Depends on:** ADR-0013 (Sensorium Multimodal Protocol), ADR-0180 (Delta-CRDT Sharded Substrate) **Companion docs:** [audio-compiler-spec.md](../plans/audio-compiler-spec.md), [audio-compiler-eval-plan.md](../plans/audio-compiler-eval-plan.md) --- ## 1. Context & Problem Statement CORE's sensory boundary is already lawful and text-only-in-practice. `sensorium/protocol.py` fixes the contract: - `ProjectionHead.project(S) -> (32,) float32` is the **Logos-recovery boundary** (`CL41_DIM = 32`). - `Modality.AUDIO` already exists in the enum but has no adapter (`sensorium/adapters/` ships `text.py` only). - `ModalityPack` enforces gate/checksum invariants at construction; `ModalityRegistry.mount()` runs the unitarity check and `project()` refuses a closed gate. ADR-0013 (Accepted) requires every new modality to cross this boundary *before* it reaches `ingest/gate.py`, and forbids touching `ingest/`, `field/`, `generate/`, `vault/`, `vocab/` to add one. Audio must therefore **arrive already compiled** into a `(32,)` Cl(4,1) multivector. ADR-0180 (Proposed) introduces the **Delta-CRDT sharded substrate** precisely to absorb the continuous, high-density streams that audio and vision produce — naming AUDIO explicitly — and flags one hard constraint we must satisfy (§1.5.2): > The semilattice claim holds **only** at the `vault/store` layer — not at `versor_apply` > and not at `compute_trace_hash`. … Any operation upstream of `vault/store` that the > substrate parallelizes must either (a) be proven order-invariant on its inputs, or > (b) carry an explicit serialization barrier. The problem this ADR solves: **how does audio enter CORE as a lawful, deterministic, replayable modality that is also a well-behaved Delta-CRDT delta producer** — without violating the no-core-mutation rule, the exact-recall rule, or ADR-0180's order-invariance obligation? The wrong answer is an embedding bridge (CLAP/EnCodec/Whisper as substrate). It produces an opaque latent that cannot be checksummed, cannot be replayed bit-for-bit, and cannot supply the content-addressed merge key ADR-0180 §1.5.3 demands. The right answer is a **compiler**. ## 2. Decision We will build `audio_core_v1` as a **deterministic auditory compiler** under `sensorium/audio/`, lowering canonical waveform input through a typed `AudioIR` into a `(32,)` float32 Cl(4,1) versor, and we will make its **chunk boundary the Delta-CRDT delta boundary**. Learned models (Whisper, NeMo, CLAP, EnCodec) are admitted only as subordinate teacher/shadow lanes, never as the substrate. The compilation pipeline (detailed in the spec) is: ```text waveform / live stream → canonicalizer (mono, fixed sample rate, source+canonical sha256) → frame grid (20 ms window / 10 ms hop) → acoustic lexer (energy, voicing, onset, pitch candidates, spectral bands, pauses) → typed AudioIR (speech/pause spans, prosody arcs, turn/overlap events, non-speech atoms) → operator registry (pack-local blade aliases + quantized theta rules) → rotor lowering (elliptic bivector rotors only in v1) → versor composition (geometric_product → unitize_versor → versor_condition < 1e-6) → (32,) float32 == one AudioCompilationUnit ``` Normalization sites stay inside CLAUDE.md's allowlist: quantization and FIR resampling live in the audio pack/compiler construction boundary, `unitize_versor` is algebra-owned, and **no hot-path drift repair is added**. CGA null vectors are preserved as null vectors. ### 2.1 The optimal mapping to Delta-CRDT (the load-bearing decision) ADR-0180 §1.5.2 gives audio a binary choice for everything the substrate parallelizes: **prove order-invariance, or carry a serialization barrier.** The audio compiler answers *both*, at two different granularities: | Granularity | Operation | CRDT treatment | Why | |---|---|---|---| | **Within a chunk** | `compile_events` (rotor chaining via `geometric_product`) | **Serialization barrier** | The sandwich product is non-commutative (ADR-0180 §1.5.2 row 3). In-chunk composition runs serially, single-threaded, in canonical event order, inside one thread-local arena. | | **Across chunks / streams** | merge of `AudioCompilationUnit`s into the Vault | **Order-invariant delta** | Each unit is `(versor, provenance)` written at the `vault/store` layer — the *only* semilattice-eligible layer (ADR-0180 §1.5.2 row 5). Merge is commutative, associative, idempotent. | This is the synthesis ADR-0180 was waiting for: **the audio chunk boundary is the natural delta boundary** named in ADR-0180 §2.2 ("at semantic chunk boundaries"). The compiler does the order-sensitive work behind the barrier and emits only order-invariant deltas across it. The substrate never parallelizes a non-commutative operation. ### 2.2 Content-addressed merge key from the checksum chain ADR-0180 §1.5.3 requires the trace-hash reduction to consume vault state in a **content-addressed order**, not wall-clock arrival order, or `hash(Sequential_Ingest) == hash(Concurrent_CRDT_Ingest)` cannot hold. The audio compiler already produces exactly this key as a byproduct of its layered checksum chain: ```text source_sha256 → canonical_sha256 → token_stream_sha256 → ir_sha256 → pack_manifest_sha256 → projection_sha256 ``` The **merge key for an audio delta is `(canonical_sha256, ir_sha256, projection_sha256)`**. Consequences: - **Idempotence is structural, not asserted.** Identical canonical bytes under an identical pack produce an identical key; the CRDT join deduplicates them. This satisfies the idempotence leg of the join semilattice (ADR-0180 §2.2) by construction. - **The content-addressed sort is free.** The merge kernel orders pending audio deltas by this key. No re-sort pass is needed at hash time for the audio portion of the path. - **`projection_sha256` is computed behind the serialization barrier** (§2.1), i.e. on the serialized in-chunk composition — satisfying ADR-0180 §1.5.3 point 3 (upstream-of-Vault hashes must be computed on the serialized portion). ### 2.3 Physical sharding mirrors the audio domain's natural concurrency ADR-0180 §2.1 assigns each active modality adapter a thread-local arena and forbids `sensorium/adapters/*` from writing the global `epistemic_state` directly. For audio this is not just a mechanical convenience — it is **semantically aligned**: overlapping speakers, interruptions, and turn boundaries (the `B_OVERLAP`, `B_TURN` atoms in the operator table) are *literally* concurrent auditory streams. Each concurrent stream gets its own arena; the `AuditoryEvent` timing (`start_hop`/`end_hop`) is preserved inside each unit so the merge can reconstruct overlap relationships without a global lock during ingestion. The substrate's physical sharding is therefore a faithful image of the audio source's structure, not an impedance mismatch. ### 2.4 Eventual-consistency window is safe for audio ADR-0180 §3.2 documents a sub-50ms window where a delta sits in the local arena before merge. Audio is robust to this because: - `ProjectionHead.project` is **pure on the signal** (ADR-0180 T-4) — the audio compiler never reads cross-modal or global state during compilation, so a delayed merge cannot change what it produces. - Each unit retains its own intra-stream event timing, so cross-modal resonance re-anchors on merged state after the window closes; recall remains **exact byte-for-byte once merged** (ADR-0180 §1.5.5), never approximate. ### 2.5 Gate-closed by default `audio_core_v1` mounts with `gate_engaged = false` until the eval gates in the companion plan pass. A closed gate makes `ModalityRegistry.project("audio_core_v1", …)` raise — audio cannot contribute deltas to any arena until determinism, checksum, unitarity, and mount-validation gates are green. This reuses the existing registry enforcement; no new gating machinery is added. ## 3. Consequences ### 3.1 Positive - **First concrete exerciser of ADR-0180.** Audio is the first continuous modality to land on the Delta-CRDT substrate, converting ADR-0180's proof obligation `hash(Sequential) == hash(Concurrent)` from abstract to testable against real delta producers. - **Order-invariance is proven, not hoped.** §2.1/§2.2 give a concrete serialization barrier and a content-addressed key, closing ADR-0180 §1.5.2's open constraint for the audio path. - **No core mutation.** Everything new lives under `sensorium/audio/`, `packs/audio/`, `tests/`, `evals/`. `ingest/`, `field/`, `generate/`, `vault/`, `vocab/` are untouched (ADR-0013), and `anti_unifier`/`carrier` need no changes (ADR-0180 §3.1). - **Trace hygiene composes.** Turn traces record `(canonical_sha256, ir_sha256, projection_sha256)` and pack IDs — never raw PCM (ADR-0180 §1.5.5). ### 3.2 Negative / Risks - **Semantic underreach (v1).** The compiler captures prosody, turn dynamics, and salient non-speech events better than lexical content. Acceptable: transcript teachers backfill lexical evidence while the substrate stays native. - **Pack ontology drift.** If blade aliases or operator gains change freely, projections become incomparable across versions. Mitigation: the pack is versioned, checksummed, and gate-closed; `basis_version` is part of the merge key's pack-manifest leg. - **Over/under-quantization.** Too-coarse bins flatten meaning; too-fine bins make replay brittle. Mitigation: quantization regime is frozen in the manifest and covered by cross-platform stability gates. - **Streaming seam artifacts.** Stateful resampling/pitch/overlap must preserve continuity across chunk boundaries. Deferred to the streaming phase; v1 is offline/whole-buffer. - **Licensing contamination.** openSMILE's OSS build is non-commercial; it is a reference oracle only, never a runtime dependency. ## 4. Execution Plan & Proof Obligations ### 4.1 PR stack (additive, doctrine-first) | PR | Scope | Gate | |---|---|---| | **PR-1 (this)** | ADR-0181 + compiler spec + eval plan (docs only) | review | | **PR-2** | Deterministic substrate: `sensorium/audio/{types,canonical,checksum,resample,frames,lexer,parser,operators,compiler,trace}.py` | determinism + versor unit tests | | **PR-3** | Pack artifacts `packs/audio/audio_core_v1/*` + `AudioProjectionHead` adapter + mount tests | mount/gate/checksum gates | | **PR-4** | `evals/audio_sensorium/` fixtures, expected IR, expected projection hashes | full eval-gate table | | **PR-5** | Delta-CRDT wiring: `AudioCompilationUnit` → thread-local arena → merge key, behind ADR-0180's substrate | sequential==concurrent trace-hash proof | | **PR-6** | Teacher/shadow lanes (Whisper/NeMo/CLAP/EnCodec) behind optional extras | teachers admitted only as typed hints | PR-5 must not start until ADR-0180's own §1.5.4 obligations (T-1…T-4) are green on `main` — the audio delta path rides on them. ### 4.2 Audio-specific proof obligations (extend ADR-0180 §1.5.4) Per CLAUDE.md §Schema-Defined Proof Obligations, each must be able to **fail loudly** under the violation it names: - **A-1 (determinism / ADR-0180 T-4 analog).** Same canonical bytes + same pack ⇒ byte-identical `(32,)`, across repeated calls, threads, and processes. Fails if any non-determinism (dict ordering, unpinned FIR, float reduction order) leaks in. - **A-2 (set-equality of merges / ADR-0180 T-1 analog).** A set of `AudioCompilationUnit`s folds to the same Vault state regardless of arena flush order (permutation invariance). Fails if a delta's contribution is order-sensitive at the merge layer. - **A-3 (content-addressed key / ADR-0180 T-2 analog).** Trace-hash over audio deltas is invariant under set-equal Vault states when keyed by `(canonical_sha256, ir_sha256, projection_sha256)`. Fails if the reduction consumes deltas in arrival order. - **A-4 (serialization barrier).** In-chunk `compile_events` is asserted order-sensitive (negative test): swapping two events in canonical order changes the versor. This guards the barrier in §2.1 from silently becoming commutative and masking a real ordering bug. - **A-5 (versor condition).** Every emitted unit satisfies `versor_condition(v) < 1e-6`; the threshold is never weakened to pass. - **A-6 (trace hygiene).** No raw waveform bytes appear in any `TurnEvent`/Vault record; only the three hashes + pack IDs + optional teacher provenance. ### 4.3 The strict compilation invariant ```text same canonical audio bytes + same compiler version + same pack manifest (incl. basis_version) + same operator registry = same AudioIR = same versor = same projection hash = same CRDT merge key = identical post-merge Vault contribution (idempotent under re-ingest) ``` The final clause is the ADR-0181 addition to the PDF's original invariant: determinism is not only replayability, it is **CRDT idempotence** — the property that makes audio safe to shard. ## 5. Alternatives Considered - **Transcript-first cascade (Whisper as substrate).** Chunked, text-intermediate; discards the auditory structure (the "No." vs "No?" vs whispered "no" distinction) and produces no checksummable, content-addressed key. Rejected as substrate; retained as teacher. - **Embedding-first projector (CLAP).** Fast but opaque; cannot be replayed bit-for-bit and cannot supply ADR-0180 §1.5.3's content-addressed merge key. Rejected as substrate. - **Codec-token front end (EnCodec / Moshi-like).** Strategically interesting for future full-duplex output; poor first substrate for an epistemically explicit engine. Deferred to a shadow/output lane. - **Audio as a downstream cognition mutation.** Violates ADR-0013's no-core-mutation rule and ADR-0180's "adapters never write global state directly" rule. Rejected. ## 6. Cross-References - ADR-0013 — projection boundary; no-core-mutation constraint. - ADR-0180 — Delta-CRDT substrate; §1.5.2 order-invariance constraint (closed here for audio), §1.5.3 content-addressed merge key, §1.5.4 T-1…T-4 (audio analogs in §4.2), §1.5.5 trace hygiene & no hidden background execution. - ADR-0054 — Vault recall indexing/batching; the read-side contract the merged audio deltas must preserve (exact CGA recall). - CLAUDE.md §Normalization Rules — quantization/FIR confined to pack/compiler construction; `unitize_versor` algebra-owned; no hot-path repair. - `sensorium/protocol.py`, `sensorium/registry.py` — the `ProjectionHead`/`ModalityPack`/ `ModalityRegistry` contracts this ADR implements an audio instance of.